Natural disasters in South America
2017 South America floods
![](//upload.wikimedia.org/wikipedia/commons/thumb/c/c4/JMC_3208_%2832149486630%29.jpg/240px-JMC_3208_%2832149486630%29.jpg) |
Date
| December 2016 ? May 2017
|
---|
Location
| Much of
South America
, most notably Ecuador and Peru
|
---|
Deaths
| ≥418 deaths, >824 injuries, 361 missing
|
---|
The most impacted areas in Ecuador and Peru.
Mildly impacted areas
Moderately impacted areas
Severely impacted areas
Rescuers searching through debris for survivors of the
Mocoa landslide
From December 2016 and continuing until May 2017, much of western and central
South America
was plagued by persistent heavy rain events. In
Peru
, one of the most severely impacted nations, it has been referred to as the
2017 Coastal Nino
(
Spanish
:
El Nino costero de 2017
). The flooding was preceded by drought-like conditions throughout the region for much of 2016 and a strong warming of sea temperatures off the coast of Peru.
Background
[
edit
]
From 2014 to 2016, the
Pacific Ocean
experienced a
significant El Nino event
. By June 2016, the El Nino had subsided but lingering drought-like conditions persisted through the southern spring in late 2016. Starting in November 2016, a localized anomalous warming of the Pacific occurred which is known locally as the
Coastal Nino
. A Coastal Nino is differentiated from an
El Nino
event in that the Coastal Nino is localized to the coasts of Ecuador and Peru and does not expand into the equatorial central Pacific Ocean or impact global temperatures.
[1]
This
ocean warming
contributed to unseasonably high rainfall in the region and, by January 2017, Peruvian officials had declared the warming a Coastal Nino occurrence.
Climatology
[
edit
]
A previous situation: The 2014-16 Nino
[
edit
]
Before the Coastal Nino occurred there was another phenomenal event, the Global Nino. This Nino lasted from November 2014 until May 2016,
[2]
was cataloged as very strong and nicknamed the “Supernino,” or “Godzilla Nino,” due to its very large area of warming. This Nino broke numerous worldwide temperature records and in a particular moment, for instance, February 2016, raised the temperatures of the American Pacific coast from Alaska to Chile.
In spite of the fact that this Nino was categorized as very intense, it did not gravely affect the South American coasts due to the fact that its center developed in the equatorial central Pacific. Nearing the end of this Global Nino the abnormal heat of the ocean moved towards the coasts of Peru, initiating there the Coastal Nino event.
Duration
[
edit
]
The abnormal warming had been present on the coasts of Peru since June 2016,
[3]
however, in agreement with the Peruvian studies, it is considered that the Coastal Nino event officially lasted from December 2016 until May 2017. The most activity occurred between January and March 2017,
[4]
and the areas affected the most were the Peruvian regions of
Piura
,
Lambayeque
and
La Libertad.
On the other hand, the abnormal warming appeared later on the coasts of Ecuador, lasting only from January 2017 until April 2017. In both countries, the most critical episode took place in March 2017. For these reasons, this event is also simply known as the 2017 Nino.
Origin
[
edit
]
The strong rains originated due to the warming of the ocean that borders the Pacific coasts of Peru and Ecuador, a phenomenon referred to as the Coastal Nino. The rise in the ocean's temperature is linked with air currents, of Central American origin, that move in the southern direction. These currents assist with the warming of the sea and with the arrival of warm waters from Asia and Oceania. As they passed by the coasts of Ecuador and Peru, the warm water currents didn't encounter a sufficiently strong trade wind barrier that could prevent their forceful arrival.
[5]
The warm water is characterized to be superficial and to evaporate easily; it also increases temperatures to 29 degrees Celsius which generates an unstable atmosphere and constant rain.
[6]
Precedents: 1891 and 1925 Ninos
[
edit
]
A precedent of the 2017 Coastal Nino, would be the
1891 Meganino
, named thusly the “1891 Downpour” or the “1891 Flood”. This event would have been a Coastal Nino due to the fact that it was a phenomenon that in a localized manner largely affected the Peruvian coast, but without a larger influence on the global climate it probably would not be related to the weather pattern referred to as ENSO, (
El Nino-Southern Oscillation
). The 1891 event was the first of the era that was scientifically studied thanks to the Geographic Society of Lima. It lasted from February to April and would have been caused by the abnormal oceanic heating influenced by the currents of El Nino. The NOAA considers the precedent of 1891 as a warming event of Peru that is within the most severe events to have occurred in the last 300 years.
[7]
It caused large disasters and more than two thousand casualties in Peru.
The
1925 Nino
was also a Coastal Nino that affected Peru and Ecuador between the months of February and April.
[8]
It originated from the appearance of the currents of El Nino, where a rapid warming of the sea took place, with the development of the phenomenon during the simultaneous event of the Global Nino (this contradiction is called the Modoki Nina). Equal to that which occurred in 2017 it weakened the southern
trade winds
, with an intense development of the
tropical rain belt
and a corresponding association to an intense
Intertropical Convergence Zone
(ITCZ) south of the equator.
Impacts
[
edit
]
Colombia
[
edit
]
On December 1, 2016, heavy rains in
Cali
triggered a landslide that claimed at least six lives. All the fatalities took place in the Siloe neighborhood where 14 homes were destroyed.
[9]
During the overnight of March 31 ? April 1, heavy rain affected parts of the
Putumayo Department
. A total of 130 mm (5.1 in) of rain fell within a few hours near the city of
Mocoa
.
[
citation needed
]
This caused the
Mocoa
,
Sangoyaco
, and
Mulata
rivers to overflow and send
mudflows
towards residences and infrastructure in the city of Mocoa by 3:00 a.m.
[10]
[11]
Multiple neighborhoods were
devastated in the disaster
, with numerous residents caught off-guard. By the morning of 6 April, at least 301 people were known dead (including 92 children),
[12]
[13]
[14]
more than 400 were injured (including 167 children),
[13]
and a further 314 were missing.
[12]
Ecuador
[
edit
]
In Ecuador, at least 16 people were killed by floods or landslides. Coastal
Manabi
declared a state emergency and the country's largest city,
Guayaquil
in
Guayas
experienced abnormally high rain events.
[15]
Higher elevation regions including
Quito
experienced severe rains, landslides, and sinkholes towards the tail end of the Coastal Nino event as the
ITCZ
began moving north towards its more usual latitude.
Peru
[
edit
]
Much of the
coastal desert
region of Peru was particularly hard-hit with incessant, heavy rains starting in January 2017. Most impacted were the regions of
Tumbes
,
Piura
, and
Lambayeque
where a state of emergency was declared on February 3, 2017.
[16]
These equatorial parts of Peru are typically dry throughout the summer but can be greatly impacted by climatic changes when adjacent ocean warms and the
equatorial trough
oscillates further north. During these occurrences,
monsoon
-like rains can fall in usually bone-dry ecosystems causing mudslides locally known as
huaycos
. The 2017 Coastal Nino was the worst to hit Peru since 1925.
[1]
More than 115,000 homes were demolished,
[17]
leaving approximately 178,000 people homeless. A total of 113 people were killed, 354 were injured, and a further 18 were missing.
[18]
More than 2,500 kilometers (1,500 miles) of roads were destroyed
[19]
and an estimated 1.1 million people have been directly affected by the floods. The
United Nations Office for the Coordination of Humanitarian Affairs
noted that 3 million people were at-risk for waterborne diseases.
[20]
On March 16, a mudflow buried the village of Barbablanca; however, all 160 residents escaped.
[21]
On March 27, 2017, the
Piura River
broke its banks and flooded the city of
Piura
and the towns of
Catacaos
and
Pedregal Chico
.
[22]
In Piura, 300 mm (12 in) of rain fell in one day, three times the city's annual average and Catacaos had flood waters rise to 1.8 m (5.9 ft) high.
[22]
[23]
Further south,
La Libertad
,
Ancash
, and
Lima
were also impacted.
Trujillo
experienced severe localized flooding in its ravines and
Huarmey
was badly flooded.
Elsewhere
[
edit
]
In Brazil, Heavy rains on March 11?13, 2017, including 110 mm (4.3 in) in 24 hours, caused flooding across
Rio Grande do Sul
, killing 2 people, injuring 70, and leaving 10 others missing.
[24]
Further south, in Chile, unusually heavy rains affected areas around
Santiago
starting in February 2017. Flooding and landslides killed at least eighteen people and left few others missing.
[25]
[26]
Disasters
[
edit
]
From the beginning of the Coastal Nino, the Peruvian and Ecuadorian coasts have seen the effects of various disasters which have caused hundreds of fatalities and thousands of damages.
Destruction
[
edit
]
The
landslides
, overflow and displacement of earth intensified especially in the basin of the Pacific. This phenomenon initially only affected the populations that lived near mountain valleys, but as the situation worsened the landslides continued until they reached cities cut off from the mountains, like
Huaraz
.
Torrential rain and thunderstorms
[
edit
]
Torrential rains accompanied the thunderstorms that began in the regions of northern Peru such as
Lambayeque
,
La libertad
, and
Piura
as well as in the provinces of the south of Ecuador such as
El oro
,
Lloja
, and
Azuay
. Many of these experienced for the first time heavy rains with lightning, in particular, the Metropolitan District of
Guayaquil
. Gradually various parts of both countries where rain is scarce, such as the provinces of
Lima
and
Tacna
, also experienced heavy rainfall. Other cities that are commonly rainy, like
Quito
and
Riobamaba
, recorded historic levels of precipitation 5 to 6 times greater than normal.
The Peruvian Amazon rainforest also faced a significant rise in rain.
[27]
The hailstorms began in the southern Peruvian regions and
Puno
was affected the most. The Puno authorities found themselves obliged to close schools and avoid travel on highways. In the final days several inhabitants of
Lima
warned the authorities of the accumulation of large quantities of a white mass on the peaks of the mountain ranges of Lima.
[28]
The Ecuadorian city of
Cuenca
also recorded a strong hailstorm that paralyzed traffic and obliged the municipal authorities to declare a state of emergency suspending classes in schools, colleges and universities.
Floods
[
edit
]
Virtually all of
Peru
and
Ecuador
experienced repeated flooding due to the overflow of rivers and ravines caused by the rain and the mudslides that easily transported water to them.
References
[
edit
]
- ^
a
b
"5 preguntas para entender el Fenomeno El Nino costero que golpea Peru"
.
RPP
(in Spanish). Mongabay. 1 April 2017
. Retrieved
22 January
2019
.
- ^
Center, NOAA's Climate Prediction.
"NOAA's Climate Prediction Center"
.
origin.cpc.ncep.noaa.gov
. Retrieved
2022-03-03
.
- ^
"WeatherBell Maps"
.
maps.weatherbell.com
. Retrieved
2022-03-03
.
- ^
"Informe Tecnico Extraordinario N°001-2017/ENFEN EL NINO COSTERO 2017"
(PDF)
. Archived from
the original
(PDF)
on 14 October 2018
. Retrieved
2022-03-03
.
- ^
"Que es "El Nino costero" que afecta a Peru y Ecuador, y por que puede ser el indicador de un fenomeno a escala planetaria"
.
BBC News Mundo
(in Spanish). 2017-03-14
. Retrieved
2022-03-03
.
- ^
Meganoticias (2017-03-15).
"El "Nino Costero", el fenomeno climatico que amenaza a Peru"
.
meganoticias.cl
(in Spanish)
. Retrieved
2022-03-03
.
- ^
Rocha-Felices, Arturo.
"LOS ALUVIONES DE 1891 Y LA INICIACION DE LAS INVESTIGACIONES SOBRE EL FENOMENO EL NINO ENSO EN EL PERU"
.
- ^
Takahashi, Ken; Martinez, Alejandra G. (2019-06-01).
"The very strong coastal El Nino in 1925 in the far-eastern Pacific"
.
Climate Dynamics
.
52
(12): 7389?7415.
Bibcode
:
2019ClDy...52.7389T
.
doi
:
10.1007/s00382-017-3702-1
.
hdl
:
20.500.12816/738
.
ISSN
1432-0894
.
S2CID
134011107
.
- ^
Monitoring Emergencies: Colombia - 12/02/2016: Strong rains in Cali cause flooding, landslides
(Report). ReliefWeb. December 2, 2016
. Retrieved
April 6,
2017
.
- ^
Colombia ? Avalancha e inundaciones en Mocoa (Putumayo) Flash Update No. 1 (01/04/17)
(PDF)
(Report) (in Spanish). ReliefWeb. 1 April 2017
. Retrieved
2 April
2017
.
- ^
"Tragedia en Mocoa: "Eran las 3:00 a.m. cuando sintieron el remezon y la naturaleza los arrastro"
"
.
El Pais
(in Spanish). 1 April 2017
. Retrieved
2 April
2017
.
- ^
a
b
"Colombia probes Mocoa landslide as death toll tops 300"
.
Aljazeera
. Retrieved
6 April
2017
.
- ^
a
b
"Tragedia en Mocoa: van 254 muertos y centenares de heridos por avalancha"
.
Semana
(in Spanish). 2 April 2017
. Retrieved
3 April
2017
.
- ^
"Death toll 254 and counting as Colombia reels under mudslides"
.
The Hindu
. Mocoa:
Associated Press
. 3 April 2017
. Retrieved
3 April
2017
.
- ^
"Arboles se caen en medio de torrencial lluvia de ayer en Guayaquil"
(in Spanish). El Universo. 1 March 2017
. Retrieved
22 January
2019
.
- ^
"South America: Floods and Landslides - Dec 2016"
.
ReliefWeb.int
. 10 April 2017
. Retrieved
19 April
2017
.
- ^
Wright, Pam (20 March 2017).
"Flooding, Mudslides Strike Peru, Leaving 72 Dead and Thousands without Homes"
. The Weather Channel
. Retrieved
5 April
2017
.
- ^
"Peru Temporada de lluvias"
(PDF)
. RedHum. April 4, 2017
. Retrieved
April 6,
2017
.
- ^
"Death toll rises to 113 in Peru floods, mudslides"
. Yahoo News. 19 April 2017.
- ^
Peru: Heavy Rains and Floods Summary - UN Resident Coordinator Situation Report No. 05 (As of 5 April 2017)
(PDF)
(Report). ReliefWeb. April 5, 2017
. Retrieved
April 6,
2017
.
- ^
Franklin Briceno (March 25, 2017).
"Mudslide buries Peruvian village, leaving little to claim"
.
The Washington Post
. Associated Press. Archived from
the original
on March 25, 2017
. Retrieved
April 6,
2017
.
- ^
a
b
Fernandes, Deepa (14 September 2017).
"Before Houston flooded, there was Piura, Peru"
.
PRI
. Retrieved
22 January
2019
.
- ^
"Peru floods: Four killed as Piura bursts its banks"
. BBC. 28 March 2017
. Retrieved
22 January
2019
.
- ^
Brazil - Severe Weather (Local Media, WMO, INMET) (ECHO Daily Flash of 13 March 2017)
(Report). ReliefWeb. March 13, 2017
. Retrieved
April 6,
2017
.
- ^
"Chile floods leave millions of people without drinking water in Santiago"
.
The Guardian
. February 26, 2017
. Retrieved
April 6,
2017
.
- ^
"Floods in Chile leave 18 dead and 450 evacuees"
.
TRT Spanish
. February 28, 2017
. Retrieved
April 10,
2017
.
- ^
CORREO, NOTICIAS (2017-03-16).
"Senamhi advierte de intensas lluvias que llegaran a la Selva Central | EDICION"
.
Correo
(in Spanish)
. Retrieved
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.
- ^
"¿Nieve en Lima? Se reportan cerros cubiertos de hielo [FOTO] | Actualidad | Trome"
. 2017-03-18. Archived from
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on 2017-03-18
. Retrieved
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.